Titlebook: Development and Regenerative Capacity of Descending Supraspinal Pathways in Tetrapods; A Comparative Approa H. J. Donkelaar Book 2000 The E

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Development of Descending Supraspinal Pathways in Opossums, third postnatal day (P3) - by P3 the brain has undergone a longitudinal compression which gives it the shape of an adult brain; (2) a period of . from P4 to about P60 during which all of the macroscopically visible adult brain structures sequentially appear within each region; and (3) a period of . from about P60 to weaning.

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Multiparticle diffusion analysis, of locomotion, on the ground or in the air. Finally, particularly in primates, modifications of the distal parts of the extremities (usually the forelimbs) allowed the manipulation of the environment.

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Descending Pathways to the Spinal Cord in Tetrapods: A Brief Outline,tion of descending pathways is present. The most notable difference between nonmammalian tetrapods and mammals is the apparent absence of somatomotor cortical areas giving rise to long descending projections to the spinal cord.

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0301-5556 al pathways in tetrapods is discussed. Although emphasis is on the clawed toad, Xenopus laevis, chicken embryos, opossums and rodent data, also the data available for primates including man are presented. It will be shown that 1) the outgrowth of descending supraspinal pathways is the result of a co

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https://doi.org/10.1007/978-1-4612-4916-0ation between early differentiation of the brain and the development of behavior. In anurans, particularly the development of the primary nervous system, a functionally complete, yet transient embryonic nervous system, has been extensively studied.